Hand-held roll-film camera



March 25, 1952 E. s. HINELINE 2,590,409

HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10, 1946 ll Sheets-Sheet l IIIIIII El .31; i SJ INVENTOR. Mr: .5. fiikelzbze March 25, 1952 E. SQHINELINE 2,590,409

HAND-HELD ROLL-FILM CAMERA Original,Filed Aug. I0, 1946 11 Sheets-Sheet 2 March 25, 1952 E. s. HINELINE HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10, 1946 ll Sheets-Sheet 3 IN VENTO R. .Zoonfi Hana-Zane BY {W M Z2116 7y/ l/Y// MV/JV/ //////iV ////i// I//////// March 25, 1952 E. s. HINELINE HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10, 1946 11 Sheets-Sheet 4 INVENTOR.

nSEQs-Zz'ne March 25, 1952 E. s. HINEUNE 2,590,409

HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10, 1946 11 SheetS-Shet 5 March 25, 1952 E. s. HINELINEQ 2,590,409

HAND-HELD ROLL-FILM CAMERA OriginaLFiled Aug. 10, 1946 ll heetS-Sheet 6 March 25, 1952 E. S. HINELINE 2,590,409 HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10; 1946 11 Shuts-Sheet 7 INVENTO Moaffi' March 25, 1952 s. HlNELlNE 0,

HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10, 1946 11 Sheets-Sheet 9 INVgNTOR .AYOfSOILSM March 25, 1952 E. s. HIVNELINE HAND-HELD ROLL-FILM CAMERA Original- Filed Aug. 10, 1946 1]. Sheets-Sheet 1O m m Aw 0 m Fifi March 25, 1952 E. S. HINELINE HAND-HELD ROLL-FILM CAMERA Original Filed Aug. 10, 1946 ll Sheets-Sheet 11 1 3 L L --l Patented Mar. 25, 1952 HAND-HELD ROLL-FILM CAlVIERA Edson S. Hineline, Rochester, N. Y., assignor to Graflex, Inc., Rochester, N. Y., a corporation of Delaware Original application August 10, 1946, Serial No.

689,714, now Patent No. 2,556,967, dated June 12, 1951. Divided and this application July 24, 1947, Serial No. 763,238

62 Claims. (01. 95--34) This application is division 3 of my co-pending application Ser. No. 689,714, filed August 10, 1946, now Patent Number 2,556,967 dated June 12, 1951.

ihe invention relates to hand-held roll-film cameras.

In order that the principle of the invention may be readily understood, I have disclosed a single embodiment thereof in the accompanying drawings, wherein Fig. 1 is a right-hand side elevation of the camera showing the view finder in erected position for making an exposure, the film rewind handle being shown in full lines in its normal position and the position thereof at fullest forward travel during film rewind being indicated in dotted lines Fig. 2 is a fragmentary top plan view of Fig. 1 clearly showing the position of the shutter setting dial or knob, the shutter being set for bulb exposure;

Fig. 3 is a developed view of the exposure setting dial scale; V

Fig. 4 is a vertical section through Fig. 1 showing the construction of the cone mounting ring and the position of the focal plane shutter curtains, and, as the section extends through the camera magazine, clearly showing the construction of the latter;

Fig. 5 is a front elevation of Fig. l, with the lens cone removed;

Fig. 6 is a fragmentary rear elevation of Fig. 1, clearly showing the exposure counter window;

Fig. '7 is a rear view of Fig. l, with the camera door removed; and showing the film magazine in place;

Fig. 8 is a right-hand elevation of the magazine removed from the camera;

Fig. 9 is a front elevation of the magazine removed from the camera, the magazine being empty of film and therefore the pressure pad is clearly in view;

Fig. 10 is a view of the right-hand side of the camera, having the mechanism cover plate removed, to show most clearly the film rewind mechanism, the shutter setting mechanism, and the interlock mechanism for the film rewind mechanism, the entire mechanism being shown in the condition wherein the shutter release lever has been operated, thus releasing the shutter, shown in its run-down condition, the interlock being shown as partially operated, but not to be fully operated until the shutter release lever returns to its normal position, the shutter speed setting cam being shown in condition for bulb exposure;

- in a further movement of the release lever'froi'n the position shown to the normal position will leave the interlock mechanism in the unlocked condition, thus permitting operation of the shutter rewind handle to prepare the camera for .a second exposure;

Fig. 13 is a transverse section through Fig.19 on the line I3l3 thereof;

Fig. 14 is a transverse section through Fig. 19, taken on the line I l-I4 thereof;

Fig. 15 is a fragmentary top plan view, partly in section, of the rewind handle shaft and the shutter rewind adjusting plates;

Fig. 16 is a view similar to Fig. 12, but showing the operating handle in its completely forward position, the shutter being in the set condition and the film having been partially fed for the next exposure;

Fig. 17 is a detail plan view showing part of the interlock mechanism as positioned just before the complete rewind of the film;

Fig. 18 is a view similar to Fig. 12, with some of the parts removed, showing the shutter in rewound condition, but with the shutter speeds set for an instantaneous exposure;

Fig. 19 is a vertical section through Fig. 18 on the line Ill-I9 thereof;

Fig. 20 is a detail of the film rewinding handle shaft;

Fig. 21 is a rear view of the inner structure of the magazine, the magazine case being shown in dotted lines;

Fig. 22 is a right-hand end view of the fil magazine in elevation;

Fig. 23 is a vertical section through Fig. 21, taken on the line 2323 thereof, so as most clearly to show the construction thereof;

Fig. 24 is a left-hand end view of the camera magazine in elevation;

Fig. 25 is a detail in vertical section of the film sprocket and clutch mechanism; and

Fig. 26 is a rear view in elevation of the camera magazine, part of the cover being broken away to show the film exposure counting mechanism.

This invention relates to hand-held cameras of novel construction. The camera is of a very compact, dust-tight and moisture-proof construction enabling it to be used under severe operating conditions as, for instance, at the front line of modern warfare, and for that reason it is usually referred to as the front-line camera." The camera is provided with an adjustable exposure-aperture focal plane shutter having very simple means for controlling shutter speeds. The camera is also provided with a removable lens cone for the ready interchange of lenses. The view finder is of novel construction. One element of such view finder is carried by the lens cone and, since the proportions of that element of the view finder can be changed to indicate the field covered by the particular lens carried in that cone, the act of changing cones also provides the proper view finder element for use with that lens and cone. The camera is provided with a handle that is also the operating means for rewinding the shutter and advancing the film, and an interlock mechanism is provided for locking the handle in place after the shutter has been rewound and until an exposure has been made, at which time the handle cannot again be operated until the next cycle.

The camera is provided with an interchangeable magazine of very simple construction and of a type that can readily be removed from the camera or be replaced in total darkness. The compact structure is such that the camera can be operated for making separate pictures in very rapid sequence. In fact, the camera has in practice been operated to make separate, non-moving pictures at the rate of two per second.

Among the objects of this invention, as covered by this divisional application B, are the following; to provide a compact, dust-tight, moistureproof, camera body; to provide a camera having a single means for rewinding the shutter and advancing the film; to provide a camera having interlocking means so that the camera can be operated only in a proper sequence, thus preventing double exposures, blanks and lapses; to provide interlocking means that make it necessary to operate the film rewind and shutter setting handle throughout its full stroke in both directions before a new exposure can be made, such interlocking means locking the handle in its non-operating condition until after an exposure has been completed; to provide film feeding, means operated by the shutter rewinding means and that is positive in its action; to provide an interchangeable magazine for a camera that can be removed and replaced in the camera with a minimum effort on the part of the operator and so simple in its operation that the change can be made in total darkness; to provide a magazine for the camera having a positive film feedmec'hanism with a pressure pad or plate to hold the film in exact register with the focal plane during exposure; and to provide a camera having a film magazine wherein the exposure counter is an integral part of the magazine, whereby the remaining number of exposures can be determined, whether or not the magazine is in the camera or is removed therefrom.

Referring first to Figs. 1,2, .and 6, the camera body indicated at is substantially rectangular in cross section, and to it is attached a right-side cover plate 2i housing the film feed mechanism, which is held to the camera body 20 by screws 22, 22, Fig. 1. On the opposite side of the camera body 20, as indicated in Fig. 5, is aleft-side cover plate 23 housing the shutter control mechanism and hedl to the camera body 20 by a number of suitable screws (not shown). Fastened to the coverplate 2.3 is a carrying handle 24. To the front of the camera body 20 a lens cone 25 is attached by means of a lock rin 26 threaded onto magazine and also the curtain rollers.

4 a flange 21, and securely holding the cone 25 to the camera body 20. On the right-hand end of the cone 25, viewing Fig. 1, is a lens mount 28 having the usual focusing ring 29 and a diaphragm control ring 30.

Also attached to the camera body 20, as indicated at 3| is one element of a sight or View finder. To the cone 25, and specifically to bosses 32 carried by the cone, is attached the front element of the sight or view finder, generally indicated at 33, made up of an upper U-shaped member 34 and two telescopic members 35, one only being shown. The said telescopic members 35 are provided with an elongated slot 36, in which slides a shoulder rivet 31. The lower end of the telescopic member 35 is pivoted on a pin 38 fitted into the boss 32 of the lens cone 25. The said U-shaped member 34 of the sight or viewfinder can be collapsed into the telescopic members 35 and folded down onto the lens cone 25 for compactness and portability.

Attached to the cover plate 2| is a shutter release member 39 that is pivoted on a shaft passing through the wall of the cover plate 2| and held thereto by a screw 40. Also attached to the cover plate 2| is a shutter setting knob 41 fitted to a shaft passing through a suitable bearing in the cover plate 2|, and carrying an operating handle 42.

Fitted to the back of the camera, best shown in Fig. 6, is a back member or door, indicated at 43, provided with an upper hinge member 44 and a lower hinge member 45, shown in Figs. 1 and 2. The hinge members used hereon are of the type that permit the door to be pivoted on either hinge member 44 or 45, or the door may be entirely removed. The structure is fully shown in the United States patent to Whitman and Nadel, No. 2,273,455, dated February 17, 1942, and needs no further description here. The camera back 43 is provided with a window 46 for viewing the exposure number.

Fig. 4, being a vertical cross section through the camera, most clearly shows the position of the There is provided a vertical partition in the camera, indicated at .41, having the upper end bent over to the left, through which pass screws 48, 48, and these in turn are threaded into a retaining member 49. The lower end of the partition plate or member 41 is also provided with a left-hand extending member, through which passes a screw into a retainer plate 5|. The screws 48 and 50 also serve to hold to the camera body the hinge members 44 and 45 respectively.

Also attached to the bottom side of the camera 7 body 20 is a tripod socket flange member 52 by means of screws 53, 53. The partition plate or member 41 is provided with an opening, into which a projecting member 54 of the magazine lower casting 55 is fitted. The magazine is made up of two castings, namely, the lower or forward one 55 and the upper or rearward one 56. The said castings 55 and 5B are held together by spring clips 57, 51. The camera magazine made up of the castings 55 and 55 is held in place in the camera by springs 58 and 59 held to the camera back 43 by rivets 60 and GI respectively. A more complete description of the magazine will be given at'a later point.

Still referring to Fig. 4, the second shutter curtain is indicated at 62 and is wound on a rewind spool 63 provided with a shaft 64. The first curtain is indicated at 65, and is provided with a rewind spool 66 having a shaft 61. The lower end;

of'the second curtain' 62' is provided with a sec ondor take-up spool '68 having a shaft 69'. The lower end of the first curtain 65 is provided with a take-up spool I having a shaft II. These shutter curtains and their respective spools will be again referred to when describing the operation of the shutter.

'As shown in Fig. 4, the lens cone 24 is provided with a forwardly-extending cylindricalimember I2 held to the lens cone 24 by rivets I3, I3. The cylindrical member I2 is provided with a groove I4'intowhich is fitted a ring 'I5,itself attached to thecone locking nut 26 by screws I6, I6. The flange 21 (Figs. 1 and 4) is held to the camera body 20 by screws TI, TI, and is provided witha locking pin I8 engaging a hole I9 of the cylindri cal cone member I2. The cone 24' is attached to the camera body 20 by the threaded clamp nut 26 that is threaded tothe flange 21 and tightened in the usual manner. The right-side cover plate 2| of the camera body constitutes a mechanism housing for the film rewind mechanism and-also for the shutter speed setting and rewind mechanism. Referring now to Figs. 10 to 20, afilm rewind pinion is shown at 80 and is provided with a shaft 8| fitted into a bushing 82 carried in a boss 83 in the camera body 20. The said shaft 8| is provided with a key 84 engaging a driving dog in the film magazine vto be later referred to more fully. The pinion BOandthe shaft BI are held in position by aboss'85 cast integral with the camera cover plate 2|. Said pinion 80'meshes with a large gear 96 carried on a suitable stud fitted into a boss 81 cast'integral with the said cover plate 2 I." A retaining screw 88 is threaded into said boss and holds the gear 86 in place.

Attached to the under side of the gear 86, viewing Fig. 10, is a cam plate 09 having peripheral cams 89a (Fig. 17, clearly shown in dotted lines) which is separated from and securely held to the said gear 86 by means of studs 90 and which also serve as a ratchet for advancing the gear 86' in a clockwise direction in a manner now to be described.

Attached to the right side cover plate 2I by a suitable shoulder screw 9| is a gear sector 92 having, as shown in Figs. 10 and 12, in arm 93 extending to the right, and thereto are attached ratchet drive members 94, 95, Figs. 10 and 12, by a suitable shoulder rivet 96. The ratchet drive members 94 and 95 are caused to move inwardly towards the center of the gear 86 by means of a spring 91 fitted around the shoulder rivet 96 and engaging suitable notches in the ratchet drive members 94 and 95. The said gear sector 92 meshes with a second gear sector 98, shown in dotted lines in Figs. 10, 12, 16 and 18, in section in Fig. 19, and in solid lines in Fig. 11.

Referring now to Fig. 19, said right-side cover plate 2I is provided with a boss 99 extending to the right, into which are fitted bushings I00 and IM and fitted thereinto is a shaft I02, shown in detail in Fig. 20-. The left-hand end of the shaft I02 is provided'with an enlarged cylindrical flange I03, which has part'of its periphery cutaway, a most clearly shown in dotted lines in Figs. 10, 12 and 18; The ends of said cut-away portion form limiting stops I04 and I05 that co-act with a stop plate I06 to limit the motion of the shaft I02 in either, direction. Said stop plate I06 is heldto the said right-side cover .plate 2I by rivets I01, I01. The gear sector 90 is attached to the flange I03 and the shaft I02 by drive pins-A08 I 09 wh ic h are provided with large diameter section I09, I09 that serve as camera. closed, the operating handle 42 becomes one of a spacer between gear sector 98 and a shutter rewind plate IIO fitted over an extension III of the shaft I02 and caused to rotate with said shaft I02 by means of said pins I08. The function' of said shutter rewind plate IIO will ,be explained presently. Theiright-handend' of the shaft I02 is provided with milled fiat 2' over which is fitted ahandle support member II3, Fig. 16, and held thereto by a nut II4 threaded to an. extension I I5 of the shaft I02.. The operating handle 42 is securely attached to the handle support member II3 by screws I I6; 'Any motion of said handle 42 will be transmitted to the gear sector 98"through the shaft I02, the flange I03 and the pins I08. I

Again referring to Fig. 10, as the gear sector 98 .is caused to rock to and from throughthe movement of the handle 42, the gear sector 92 and the arm 93 thereof. will also be caused to rotate. Whensaid gear sector 92 .rotates in a contraclockwise direction, theratchet member 94 will be moved in an upward direction, causing the gear 86 to be" turned in a clockwise direction because of the ratchet pins 90. When the operating handle 42 is moved all the way forward into the position shown in dotted lines in Fig. 1, the gear sector 92 and the ratchet drive members 94, 95 will be in the position shown in Fig. 16. It will be noted that one of the pins 90 has been moved in. a clockwise direction by the ratchet drive member 94, and the ratchetdrive member will also be moved in an upward direction to engage another of the ratchet pins 90. As the operating handle is returned .to its normal position, the gear sector 92 will be caused to move in a clockwise direction, the ratchet drive members 94 and 95 will be caused to move in a downwarddirection, and the ratchet drive member 95 will engage one of the pins 90, causing the gear 86 to be rotated in a clock-v wise direction. The ratchet drive member '94 will also be moved in a downward direction, but will become disengaged from the pin 90 and the parts will be returned to the position shown in Fig. 10 Through the described cycle of operation, the gear 86 will have turned one third of a revolution and the pinion 80 will have turned one complete revolution. The forward and backward movement of the operating handle 42 is limited in its motion by the stop plate I06 and the stops I04 and I05. There is provided by this invention an interlocking means whereby, after the operating handle 42 has completed a cycle (i. e. a forward movement and a return movement), it is automatically locked and'c'annot then again be op erated until an exposure has been made. In the past there have been interlocks that prevented the operation of the rewinding member until after the shutter trip lever has been pressed. This is quite satisfactory when a winding knob is used and the knob is not used for the support of the In operating the camera herein disin the operating handle 42 is kept in a locked condition until the shutter release lever 39 is allowed to return to its normal position after making an exposure. Therefore, the operating handle 42 is kept lockeduntilafter the exposure has actually been made.

To the right-side cover plate 2| is fixed a boss, through which passes a shaft II'I, Fig. 11, to the right-hand end of which is attached the said shutter release lever 39. or left-hand end of the shaft H1 is attached a second lever I I0, shown in side elevation in Fig. 10. The said shaft H1 is provided with suitable flats HP. to key the said shutter release lever 39 and the lever H0. Passing through the shaft H1 is the large head screw 40, the opposite end of which is provided with a nut I2 I, thus clamping the assembly together and causing the shutter release lever 39 and the lever II8 to be locked securely together and to be free to rotate in the boss of the right-side cover plate 2|. The motion of the lever II8 is limited by stops I22 and I23, integral with said right-side cover plate 2|, engaging a terminal finger I24 of the lever IIB when it reaches the limit of its travel in either direction. To the lower end of the lever H8 i attached a connecting link I25 by means of a shoulder rivet I26.

To the left-hand end of the connecting link I25, viewing Fig. 10, is attached a bell crank I21 pivoted on a shoulder rivet I223. The connecting link I25 is connected to the bell crank I21 by a shoulder rivet I29. Also pivoted on the shoulder rivet I29 is a floating dog I30, the function of which will be subsequently explained, and which i is caused to be turned in a clockwise direction by means of a spring I3I, but limited in its motion by a pin I32. To the lower end of the bell crank I21 a second connecting link I33 is attached by a shoulder rivet I34. To the lower end of the said connecting link I33 a lever I35 is attached by means of a shoulder rivet I35, said lever I35 being securely attached to a shaft I31 that passes through the camera body to the shutter mechanism on the opposite side thereof, where it is mounted on the left side cover plate 23. Upon the extreme lower end of the connecting link I 33 is formed an upturned end I30, to which is attached a coiled spring I33, the lower end whereof is attached to a pin I threaded into the right-side cover plate 2|. The said spring I30 tends to rotate the lever I35 in a clockwise.

To the opposite direction, the bell crank I21 in a contraclockwise direction. and the shutter release lever 33 in a clockwise direction. When said shutter release lever 39'is operated in a clockwise direction, viewing Fig. 1, the lever I35 and the shaft I31 will be operated in a contraclockwise direction, viewing Fig. 10, thus releasing the shutter.

A lever MI is also attached to said rightside cover plate 2| by means of a shoulder rivet I42. The lower end of said lever I H is provided with a cam follower or dogI lS that engages the cam plate 89. The upper end of said lever I0! is provided with gear teeth i013 that mesh with similar gear teeth I05 of a latch or interlock member I 36 pivoted on a shoulder screw I41 to the said cover plate 2|. The lever |0I is caused to rotate in a ccntraclockwise direction by a spring I48, one end of which engages an upturned ear I49 of said lever I4I the opposite end thereof engaging a pin I50 threaded into said cover plate 2|. A bell crank I5I is also attached to said cover plate 2| by means of a shoulder screw I5Ia, One end of said bell crank I5I is provided with a finger I52, and the opposite end is provided with a finger 553 and an upturned member 53. The said bell crank I5I is caused to rotate a contraclockwise direction by means of a coiled spring I55, one end of which is connected to the unturned member I54 and the opposite end to a pin I55 threaded into the said rightside cover plate 2|. The enlarged flange I03 of the shaft I02, previously referred to, is provided with a-notch I51 that is engaged by the said finger I52 when the camera is in the rewound condition, as shown in Fig. 10.

When the camera is in condition for makin an exposure, the rewind mechanism will be in the position shown in Figs. 10 and 12. In Fig.

'10, the shutter release lever 39 is shown as moved forward to the left, that is, in a clockwise direction viewing Fig. l. The lever I IE will be rotated in a contraclockwise direction viewing Fig. 10, thereby moving the connecting link I25 and the floating dog I30 in a righthand direction, viewing Fig. 10. The said floating dog I30 will be moved along the pin I32, it being allowed to move in an upward direction because of the cam face I58 and the spring I3I.

It will be noted that the finger I52 of the bell crank I5I still engages the notch I51 of the flange I03. Therefore, the operating handle 42 cannot yet be moved, but as the shutter release lever 33 is released, the lever II8 will be caused to rotate in a clockwise direction, because of the spring I30, causing the bell crank I21 to be rotated in a contraclockwise direction, and the connecting link I25 and the floating dog I30 to be moved in a left-hand direction, viewing Fig. 10. The said floating dog I30 will engage the upturned member I54 of the bell crank I5I, rotating it in a clockwise direction, thus withdrawing finger I52 of the bell crank I5I from the notch I51 of the cylindrica flange I03, as shown in Fig. 12. 7

Just before the shutter release lever 30 reaches the end of its travel, the terminal finger I53 of the bell crank |5| moves past the end of the finger I59 01" the latch or interlock member I40, allowing it to turn in a clockwise direction. At the same time, the cam face I58 of the floating dog I30 will be cammed down by the pin I32, thus withdrawing the floating dog I30 from engagement with the upturned member I54, and thus allowing the bell crank I5I to rotate-slightly in a contraclockwise"direction until the finger I53 of the bell crank I51 is engagedby the finger I59 of the latch or interlock member I46 which has turned in a clockwise direction because of spring- I08, thus holding the finger I52 out of engagement with the notch I51 of the enlarged flange I03 of theshaft I02.

The operating handle 02 can now be moved in a forward direction, thus rotating the gear in a clockwise direction as previously fully described. When=theoperating handle 42 reaches the end of its travel in a forward direction, the motion is reversed and said handle 02 is returned to its normal position. This motion will also rotate the gear 80 in a clockwise direction, carrying with it the cam'plate 80 provided on its periphery with the cams 08a; Just-before the operating or rewind handle 42 reaches the end of its travel in a return direction, one of the said cams 39a will contact with the dog I43 of the lever MI, Fig. 17', moving said lever MI in a clockwise direction and the interlock or latch member I55 in a contraclockwise direction, thus withdrawing the finger I59 oflthe latch or interlock member I05 from the" finger I53 of the bell crank I5I, which latter will be caused to rotate in a contraclockwise direction because of the spring I55 carrying with it the finger I52, which will engage the notch I51 of the enlarged flange I03 of the shaft I02. The

operating handle 42 will now be locked in position and cannot be again operated until the shutter release lever 39 has been operated and released, allowing said operating handle 42 to return to its normal position. The mechanism will now be in the position shown in Fig. 10.

There will next be described the mechanism carried by the right-side cover plate 2| for operating the shutter rewind mechanism, and reference will still be made particularly to Figs. 10 to 20.

Carried by the shutter rewind plate H is a cam plate I60 that is pivoted on said plate IIO by a shoulder rivet I6 I. The opposite end of said cam plate is guided by a shoulder rivet I62 that passes through an elongated arcuate opening I63 and into a hole provided therefor in the cam plate I60. A shutter rewind arm or bar I64 having an elongated opening IBM is attached to the rivet I62 by a bushing I65. The said cam plate I60 is provided with a lobe I66 that rides on a cam I61 attached to the shaft I68 which, as shown in Fig. 19, passes through the shaft I02. Fitted to the shaft I68 is a spline sleeve I69 held thereto by a pin I10, shown also in Fig. 13. Fitted over said spline sleeve I69 is the shutter setting knob II. The shaft I68 is provided with a threaded extension I'll, over which is fitted a spring retaining plate I12 held to the shaft I68 by a nut I13.

In a space provided therefor in the shutter setting knob 4I is a coiled spring I14, which causes said shutter setting knob M to be forced in a left-hand direction, viewing Fig. 19, because of the spring retaining plate I12. The said shutter setting knob 4I carries a dowel pin I15 that engages any one of a series of holes I16, I16 in the handle support member I I3, shown in Fig. 14. Also carried by said handle support member H3 is a pin I11 that serves as a stop for the dowel pin I15 when it reaches the end of its travel in either direction.

The lower end of the shutter rewind arm I64 is pivoted to a lever I18 by means of a shoulder rivet I19, as shown in Figs. 10, 12, 16 and 18. The said lever I18 is attached to a shaft I80 passing through the camera wall and the camera body itself to the opposite side.

The construction and operation of the film magazine in its cooperation with the camera mechanism will now be described, and for that purpose reference will be particularly made to Figs. 4, 7 to 11, and 21 to 26.

In Figs. 8 and 9, the film magazine is shown in side and front elevation as made up of an outer casing consisting of the front casing member 55 and the rear casing member 56 held together by the spring clips 51, 51. The film magazine case can be readily separated by removing spring clips 51 and lifting off the rear casing member 56.

As shown in Fig. 21, the magazine contains a film supporting and measuring mechanism made up of a frame consisting of a bottom plate 290 that serves also as a pressure pad and referred to as such. To the right-hand end of such pressure pad is formed a right-hand side plate or member 29I, best shown in Fig. 22, and to the lefthand side of said pressure pad 290 is formed a left side plate or member 292, best shown in Fig. 24. Between said side members HI and 292 is fitted an idler roller 293 mounted on suitable pins 294, 294. To said right-hand side member 29I are fitted film-spool mounting pins 295, 296 respectively. Referring to Figs. 21 to 24, between the side members or plates 29I and 292 is fitted a cross member 291 having rightangle formations 298, 298 attached to the pressure pad 290 in any suitable manner, such as spot welding. On the opposite side of the cross member 291 is formed a gusset plate 299 which is also attached to the pressure pad 290. The left-hand end of said cross member 291 constitutes one part of a hinge member, indicated at 300, to which are attached the fihn spool support members 30I, 302, the former being provided with a film-spool mounting pin 303 and the latter with a film-spool mounting pin 304. The said hinge members 30I and 302 are so formed that, when in a closed condition, they lie fiush with the side member 292, and they are held in that position by a coiled spring 300a. When the film carrier is removed from the magazine housing, the hinge members 30I and 302 can be swung outwardly to facilitate the removal of the film spools 305 and 306 respectively. A film spool 305 is carried on the pins 295 and 303, and a spool 306 is carried on the pins 296 and 304. The said spools 305 and 306 are of conventional construction excepting that the spool 306 is provided with a spur gear 301 for driving the take-up spool, which in this embodiment of the invention is the said spool 306. To the pressure pad or bottom plate 290, as shown in Fig. 21, a supply spool pressure spring 308 and a take-up spool pressure spring 309 are fastened by means of rivets 309a, 309a. These springs are for the purpose of preventing the film from unwinding from the supply spool 305 and of providing sufficient tension to hold the film taut when in the magazine.

As shown in Figs. 21 and 25, the lower end of the spool carrier structure is provided with a film drive sprocket made up of a shaft 3l0 having a driving fiange or dog 3H, and attached to the shaft 3| 0 is a clutch sprocket member or wheel 3I2, Figs. 23 and 25, and a counter sprocket wheel 3I3 fastened to the shaft 3l0 in any suitable manner, as by a pin 3I4. The shaft 3l0 is fitted into suitable holes in the side members or plates 29I and 292. The clutch sprocket member 3I2 constitutes means to drive a main take-up gear 3I5. The inner wall of the clutch sprocket member 3I2 is provided with grooves 3I6, 3I6, and to the shaft 3l0 is fitted a bushing 3I1 free to rotate on the shaft 3 I 0, and fitted over said bushing 3I1 is an inner clutch drive member 3I8 having grooves or notches 3I9, 1H9. To one end of said inner clutch drive member 3I8 is fitted the gear 3I5, and to the opposite end thereof is fixed a clutch plate 320.

Fitted over the inner clutch drive member 3I8 are movable clutch plates 32I, 32I, and between said movable clutch plates 32I and the clutch plate 329 are clutch plates 322, 322. Between the right-hand clutch plate 32I and said main take-up gear 3l5 are a series of coiled springs 323 that provide pressure on the clutch plates SH and 322. with lobes 324 that engage the grooves or notches 3I9 of the inner clutch drive member 3I8, and the clutch plates 322 are provided with lobes 325 that engage the grooves 3I6 of the sprocket wheel 3I2.

As the shaft 3 I0 is turned. by the driving fiange or dog 3I I, the take-up gear 3I5 in the inner clutclrdrive member BIS will tend to turn with shaft 3i 0, but if the take-up gear 3 I 5 is held from further movement, the naft 3I0 and the clutch sprocket 3I2 can continue to rotate, due to the frictional arrangement of clutch plates 320, MI and 322. This construction is necessary because The clutch plates 32I are provided -;f;r m the magazine compartment.

-.cover plate 33 is also provided with the window 11 while the shaft 3H] always makes one complete revolution in each film feeding movement, the take-up spool 336 will turn only suificiently far to wind up the film fed to it by the sprocket mem- V Fig. 23, that is engaged by a flat spring 321, itself attached to the pressure pad 233 by rivets 323, 328. Such notch and spring serve as means for locking the position of the clutch sprocket member or wheel 3 l 2 and the driving fiange or dog 3! i when the magazine is loaded, and this will be further referred to in describing the function of the film counter. The film take-up spool 336 is driven by means of idler gears 329, 333, shown in dotted :lines, Fig. 22, and respectively carried on a stud 33] and a stud 332, both attached to the film carrier right-side member 23 l.

The counter dial mechanism will next be described, reference being made to Figs. 4 and 26. Therein, to the magazine cover member 53 is attached a, counter dial 333 provided with a bushi'ng 334 held to said magazine cover member 53 by a shoulder rivet 335. The bushing 333 is held securely to the magazine cover member 55, but the dial 333 is free to rotate on said bushing 333. The counter dial 333 is provided with a series of teeth 336 which extend substantially all the way around the periphery thereof. There is, however, one section 33'l of the counter dial 333 that does not have any teeth, and the reason therefor will be presently explained.

. To the magazine cover member 56 a spring pawl 333 attached by rivets 339, 333, and a, second -;spring pawl 339 is attached by rivets 3M, 3M.

Said pawls 338 and 340 are to prevent a contraclockwi se rotation of the counter disk 333, viewing Fig. 26.

' shown in Figs. 4, 21 and 26, the counter sprocket wheel 3 l 3 is provided with two oppositely spaced pins 342, 352. Attached to the rear casing member 56 of the magazine is a sliding member 343 that is provided with elongated openings 344, which is held to the said rear casing member 56 by shoulder rivets 355, 335. Said sliding member 343 has a downwardly extending finger 333, Fig. 4, that engages the pins 342 of the said sprocket member or wheel 3i3. member 333 is caused to move in a left-hand direction, viewing Fig. 4, by a coiled spring 33?, one end of which engages a hole in the downwardly extending finger 333, and the opposite end of which engages a bracket 338 provided for that purpose. To the sliding member 333, as best shown in dotted lines in Fig. 26, a spring pawl 349 is attached by rivets 353, 350, which pawl engages teeth 335 of the counter dial 333.

Each time the shaft 3H3 makes a 180 rotation, it advances said counter dial 333 a distance of one tooth for each 180 rotation and two teeth for each complete revolution. The teeth 336 are so spaced that each two teeth are the equivalent of the spacing of the numbers, which can be viewed through an opening 355 in the back of the magazine cover member said opening being provided with a filter 352 to exclude actinic light The camera 66 so that the film number can be viewed in the magazine without opening the back of the camera.

The said sliding.

Referring to Figs. 21 to 2 the magazine is loaded by first disengaging the magazine clips '5, 5?, separating the magazine cover members 56 and 55, and then lifting out the film carrier. A supply spool of unexposed film 353 is placed in the position of the spool 335 in Fig. 23. Said film strip is carried around the idler roll 293, over the pressure pad 233, around the sprocket members 3E2 and 323 and onto the take-up spool 355, a sufficient amount of film being wound onto the take-up spool 338 to hold the film 353 in place. The film sprocket member 3i2 is then advanced until the notch 323 is engaged by the spring 321. This will hold the sprocket member 3|2 in position so that the slotted opening 3 I la of the driving flange or dog 3 will be in a vertical position, viewing Fig. 22.

The spool carrier is then placed in the lower half of the film magazine 353 and the magazine cover, member 53 is put in place and held there by the spring clips 51, 57. The film strip 353 will be held in contact with the magazine aperture by the pressure pad 293 as the springs 254 and 255, Figs. 4 and 26, are attached to the magazine cover member 53 by rivets 254a, 254a and 255a, 255a respectively. The springs 254 and 255 exert a downward pressure on the cross member 23? of the spool carrier, thus forcing the pressure pad 293 into contact with the film strip 353. The film magazine 355 is now ready to be placed in the camera, the camera door 43 is opened and the film magazine 355 is dropped into place. The slot 3! la of the driving flange or dog 3! i will be engaged by the key 33 of the gear hub 8!, as shown in Fig. 11.

Referring to Fig. 26, each time that the camera operating handle 53 is caused to make a complete cycle, the driving flange or dog 3| 1 will be caused to make one complete revolution, thus driving the sprocket wheels 3!?! and 313 one revolution. As the sprocket member 313 makes a complete revolution, the spring pawl 343 will be oscillated twice, advancing the counter dial 333 a distance equivalent to one numeral.

Before the magazine cover 53 was put in place, the counter dial 333 was set so that the break in the arrow 353, indicated at 356a, will be positioned under the filter 352 when the film magazine 355 is placed in the camera. The operating handle 52 is manipulated until the numeral 1 appears under the filter 352, at which time the film strip 353 will be in position for making the first exposure. After the 25th exposure is made, the arrow 355 will again appear through the filter 352, telling the operator that all the exposures have been made. The continued manipulation of the operating handle 42 will advance the letters EXP in position under the filter 352, telling the operator that a sufficient amount of film 35| has been wound on the take-up spool 336 to make it light-tight. Any further manipulation of the operating handle 42 of the camera will not cause the counter dial 333 to be further advanced because of the absence of teeth 336 at the space 33?, previously referred to. Therefore, the spring 13 operatively connected both to the film feeding means and to the shutter rewinding means, and an interlock operatively connected to the said operating handle and thereby caused to lock the said operating handle in place after the shutter has been rewound by said operating handle and until an exposure has been made by the shutter whereby the said operating handle cannot again beoperated to feed the film or to rewind the shutter until the next cycle of camera operations. In this Division B the shutter mechanism is not disclosed in detail, being disclosed in and claimed in my said application Ser. No. 689,714.

This invention is clearly distinguished from that disclosed in United States Patent No. 2,362,813, November 14, 1944, wherein I am one of the joint inventors. In that patent, which is concerned with aerial photography, and as fully described on page 11 of the specification thereof, the operating handle 39 is first turned in one direction to feed the film for the next exposure and to rewind the single curtain constituting the shutter. The handle 39 is then returned to its former position and immediately becomes locked in that position and cannot be operated until after the shutter has been released. As soon as the operating handle 39 becomes so locked, the shutter release lever 40 can be operated for releasing the shutter which thereupon runs down, the capping gates having been duly opened. The running down act of the single curtain unlocks the shutter operating handle 39 and locks the release lever 40.

In he present invention there is provided a but no interlock especially hut ease lever therefor, as is provided for the shutter release lever 40 in said patent. In the present invention the p at handle 42 becomes automatically locked immediately after having made aforward movement and a return movement and cannot again be operated until an exposure has been made. The said operating handle 43 is kept locked until the shutter release lever 39 has returned to its normal position after the exposure has actualy been made.

It is believed that everything herein claimed is properly elaimable in this application, Division B, inasmuch as all the claims herein are directed to the film mechanism or parts thereof, in their entirety, or to the film mechanism and other elements so intimately co-acting therewith as to present legitimate novel combinations claimable in the same application with claims directed solely to the film mechanism.

Having thus described one illustrative embodiment of the invention, it is to be understood that although specific terms are employed, they are used in a. generic and descriptive sense and not for purposes of limitation, the scope of the invention being set forth in the following claims.

' I claim:

1. A camera having film advancing means including a film rewind pinion 80, a gear 86 meshing with the said pinion, a cam plate 89 attached to a, face of the gear 86 and having driving studs 90, a gear sector 92 having an extending arm 93, and ratchet drive members 94, 55 pivotally attached to said arm 93 and adapted to engage said driving studs 90 of the cam plate 89, and means to impart rotary movement to said gear sector 92.

I 2.- Film advancing means for a camera in accordance with claim 1, but wherein there is provided a second gear sector meshing with the first mentioned gear sector and a shaft about and co-axially with which said second sector is mounted, and having a'flange with a cut-away portion providing two stops, said shaft having a back-and-forth turning movement, and means cooperating with said two stops to limit the motion of said shaft in either direction of backand-forth movement.

3. Film advancing means for a camera in accordance with claim 1, but wherein there is provided a second gear sector meshing with the first mentioned gear sector, and a shaft about and co-axially with which said second sector is mounted, and a flange with a cut-away-portion providing two stops, said shaft having a backand-forth turning movement, and a stop plate cooperating with said two stops, thereby limiting the movement of the said shaft in either direction.

4. Film advancing means for a camera in ac cordance with claim 1, but wherein there is provided a second gear sector meshing with the said first mentioned gear sector, and a shaft having a back-and-forth turning movement, and about and co-axially with which said second gear sector is mounted, and which shaft has a flange provided with a notch, and means operative in said movement of said shaft to engage said notch to hold said shaft from turning movement.

5. Film advancing means for a camera in accordance with claim 1, but wherein there is provided a second gear sector meshing with the first mentioned gear sector, and a shaft about and oo-axially with which said second sector is mounted.

6. Film advancing means for a camera in ac cordance with claim 1, but wherein there is provided a second gear sector meshing with the first mentioned gear sector, and a shaft having a back-and-forth turning movement, and about and co-axially with which said second sector is mounted, said shaft having a flange with a cutaway portion providing two stops, and wherein there is an operating handle supported about the shaft and operatively connected to said second gear sector by means of said shaft.

'7. A camera having film advancing means including a film rewind pinion 80, a gear 86 meshing with the said pinion, means cooperating with the gear 86 and having driving studs 90, a gear sector 92, and ratchet drive members 94, 95 connected to said gear sector and adapted to enage said driving studs 90, and means to impart turning movement to said gear sector 92.

8. Film advancing means for a camera in accordance with claim 7, but wherein there is provided a second gear sector meshing with the first gear sector, and a shaft about and co-axial with which the said gear sector is mounted and having a back-and-forth turning movement for advancing the film and having a flange I03 with a, cut-away portion providing two stops, and means to engage said stops to limit the movement of said shaft in either direction of turning movement.

9. Film advancing means for a camera in accordance with claim 7, but wherein there is provided a second gear sector meshing with the first gear sector, and a shaft about and co-axially with which the said second gear sector is mounted and having a back-and-forth turning movement for advancing the film and having a flange with a cut-away portion providing two stops, a stop plate supported adjacent said shaft and said stops, thereby limiting the movement of the shaft in either direction of turning movement.

10. Film advancing means for a camera in accordance with claim 7, but wherein there is provided a second gear sector meshing with the first gear sector, and shaft about and co-aXially with which said second gear sector is mounted and having a back-and-forth turning movement for advancing the film and having a flange provided with a notch, and means to engage said notch to hold said shaft from turning movement.

11. Film advancing means for a. camera in accordance with claim "I, but wherein there is provided a second gear sector meshing with the first gear sector and a shaft having back-and-forth turning movement for advancing the film, and whereon said second gear sector is mounted.

12. Film advancing means for a camera in accordance with claim '7, but wherein there is provided a second gear sector meshing with the first gear sector, and a shaft about and co-axially with which said second gear sector is mounted and having a back-and-forth turning movement for advancing the film and having a flange with a cut-away portion providing two stops, and stop means supported adjacent said shaft to engage said stops, to limit the turning movement of said shaft in either direction, and wherein there is an operating handle supported about the shaft and .operatively connected to said second gear sector by means of said shaft.

13. In a camera having film advancing means, a shutter release lever, a lever fast with said shutter release lever, a link connected to said lever, a bell crank leverpivota-lly connected to said link and having a floating dog, a second connecting link connected to said bell crank lever, a lever connected to said second connecting link, and spring means for moving said last mentioned lever in one direction,

14. Film feeding means for a camera in accordance with claim 13, but wherein there is a lever having a dog, and wherein there is provided a film rewind pinion, a gear meshing with said film rewind pinion, and a cam plate attached to a face of said gear, and wherein the said dog on the said lever is adapted to engage said cam plate to be moved thereby and thereby to cause said lever to move.

15. Film feeding means for a camera in accordance with claim 13, but wherein there is a lever having a dog, and wherein there is pro- :vided a film rewind pinion, a gear meshing with said rewind pinion, and a cam plate attached to a face of said gear, and wherein the said dog of the lever is adapted to engage said cam plate, to be moved thereby and thereby to cause said lever to move, and wherein said lever has gear teeth, and wherein there is a latch or interlock member having teeth engaging the teeth of the said lever.

16. Film feeding means for a camera in accordance with claim 13, but wherein there is a lever having a dog, and wherein 'there is provided a film rewind pinion, a gear meshing with saidrewind pinion, and a cam plate attached to a'face of said gear, and wherein the said dog of the said lever is adapted to engage said cam plate',to be moved thereby and thereby to cause said lever to move, and wherein said lever has 16 back thereof, two opposite side cover plates secured at opposite sides of the body portion to constitute the sides of the camera, film feed mechanism mounted within said body portion upon the inner face of one of said side cover plates, a fully enclosed film feed magazine or casing received within the said camera body portion and removable as a unit through the back of said box-like body, and operatively connected to but readily separable from said film feed mechanism, the said camera having mounted upon the outside of one of said side cover plates thereof a prolonged, non-rotary, camera-carrying, pivoted handle movable back and forth for operating at least the film feed mechanism, said removable film feed Casing comprising a bottom plate 290 constituting also a pressure pad for the film when said structure is in functioning position in the camera with the film in position for an exposure; two opposite side members 29l, 292 upstanding from said bottom plate, said side member 29i having film spool supporting pins 295, 296, an intermediate cross member 291 attached to and upstanding from said bottom plate, an idler roller, 93 and clutch Wheel means both directly supported in said side members 29!, 292 near opposite ends of said structure, two plate members 35H, 3E2 oppositely hinged to said cross member 29! substantially flush with side mem-' bers 292 and having supporting pins 303, 304, whereby film spools may be supported in said structure by said pins 393, 384 and by the supporting pins of said side member 29!.

18. A camera in accordance with cla wherein film drive means is directl unte in the side members 29!, 292, said ve means including a shaft 3H3 having ounted thereon a driving flange 3H and a clafilh W el and a counter wheel 3 i3.

19. A camera in accordance with claim 1'7, but wherein the said hinged plate members 30!, 302; when positioned flatwise, lie substantially flush with the side member 292, and wherein said side member 292 consists of two short portions at opposite ends of said bottom plate 290 and between which short portions lie the two hinged plate members 30 i 302.

member 313 fitted over said bushing 3H, and an outer clutch member 3l2 fast to said shaft 310 v and having a cylindrical Wall spaced from and surrounding said inner clutch drive member 318, and clutch means interposed between said clutch member 3H3 and said cylindrical Wall.

21. A camera in accordance with claim 17, but wherein film drive means is directly mounted in the side members 29l, 292, and wherein said film driving means includes a shaft 3H1, a bushing 3 l1 free to rotate on said shaft, an inner clutch drive member 358 fitted over said bushing 311, and an outer clutch member 3l2 fast to said shaft 3H] and having a cylindrical wall spaced from and surrounding said inner clutch drive member 318, and clutch means interposed between said clutch member 3 l8 and said cylindrical wall, said clutch means comprising clutch plates 32 l, 322 and spring means to press them yieldingly together.

22. A camera in accordance with claim 17, but wherein film drive means is directly mounted in driving means includes a shaft 3H], a bushing 3|! free to rotate on said shaft, an inner clutch drive member 3l8 fitted over said bushing 3H, and an outer clutch member 3l2 fast to said shaft 3| 0 and having a cylindrical wall spaced from and surrounding said inner clutch drive member 3I8, and clutch means interposed between said clutch member 3|8 and said cylindrical wall, and wherein the inner clutch drive member 318 has fast thereon a gear in meshing relation with the film take-up spool.

23. A camera of the hand-carried type having a box-like body portion substantially rectangular in cross section, and having a door constituting the entire rear wall of the said camera body portion, two opposite side cover plates detachably secured thereto, film feeding mechanism within said body portion mounted upon the inner face of one of said side cover plates, a film feed magazine received within the said camera body portion alongside of said film feed mechanism, and

removable from said body portion as a unit through said door at the rear of said box-like body, said magazine having therein a film supply roll and a film take-up roll mounted therein and also having therein a shaft for driving said film take-up roll, mounted in and extending out through a side wall of said magazine, and operative driving connections between the film feed mechanism upon one of said side cover plates and said shaft, whereby actuation of said film feed mechanism feeds the film in said magazine.

24. A camera in accordance with claim 23, but wherein the said magazine contains film supporting means including a counter wheel that is mounted upon said shaft and rotated by the feeding movement of the film, and a counterdial attached to a wall of said magazine that is positioned fiatwise against the door constituting the rear wall of the camera body portion when the magazine is positioned in the camera, and wherein there are operating connections between the said counter Wheel and the said counter dial, so that the latter is moved at each feeding movement of the film.

25. In a hand-supported camera having an automatic handle-locking means for locking the film feeding means and the shutter rewinding means of the camera until after the shutter release lever of the camera has been released to make an exposure and has returned to its normal position, the following combination of coacting parts: a camera casing of box-like form and having two opposite enclosing sides upon the inner face on one only of which the film feeding means and the shutter rewinding means are carried, a shaft supported in that enclosing side on which the film feeding means and the shutter rewinding means are carried and extending out therefrom, a prolonged, film feeding, shutter rewinding, holding handle mounted upon said shaft and extending therefrom in substantial parallelism with the enclosing side of the camera in which said shaft is supported sufiiciently far so as to be firmly grasped by the operator for holding the camera and for operating the same, said handle having only a swing forward-and-return operating movement, and automatic handle looking means operatively connected to and so as to be thereby moved automatically by the said movement of said handle, thereby automatically to lock said handle upon the completion of the said return movement of the handle following the forward movement thereof, until the shutter release lever has been released to make an exposure and has returned to its normal position winding means and whereby the handle-lockingmeans is disengaged by the shutter release lever upon completion of the movement of the shutter release lever.

26. A photographic camera of the character specified in claim 25, but wherein, for the purpose of locking the said film feeding, shutter rewinding handle until after the shutter release lever has been operated and has returned to its normal position, the said shaft is provided with a notch, and there is provided a locking lever to engage said notch, and wherein means is provided operatively connected to the shutter release lever to cause engagement of said locking lever with said notch of said shaft, thereby to prevent movement of said locking lever and of said filmfeeding shutter rewinding handle, after the shutter has been opened and closed.

27. A photographic camera of the character specified in claim 25, but wherein, for the purpose of locking the said film feeding, shutter rewinding handle until after the shutter release lever has been operated and has returned to its normal position, the said shaft is provided with a notch, and there is provided a bell crank lever having a finger to engage said notch, and wherein the shutter release lever is operatively connected to said bell crank lever, a second lever, and a link. connected to said lever, and which link in its movement engages said bell crank lever to move the same and withdraw the finger thereof from engagement with said notch of said shaft.

28. A. photographic camera of the handcarried type having a readily insertible and readily removable, fully enclosed, film carrying, film presenting magazine, said camera having a box-like body portion substantially rectangular in cross section, having two opposite side cover plates and having interiorly an upright partition extending from top to bottom thereof at a sufficient distance from the back of the camera for the reception-of said film carrying, film presenting magazine in functioning position, a door mounted at the back of the camera through which the said magazine is inserted and withdrawn, said film magazine when in position in the camera being received in functioning position fiatwise against said upright partition, said magazine having therein a film supporting spool and a film take-up spool, said latter spool being accessible through a wall of said magazine for receiving film feeding movements, film feeding means supported interiorly of said box-like camera body portion upon one only of said side cover plates, and cperatively connected with the film take-up spool when the magazine is positioned in the camera, and an operating member supported in said body portion upon the said cover plate supporting the film feeding means, and extending out from the wall of said camera body portion and operatively connected to the said film feeding means, whereby movement im parted. to said member feeds the film by rotation Of said spools.

29. A camera in accordance with claim 25, but wherein the means for automatically locking the said operating handle includes means to engage a handle holding formation on the said shaft Whereon said handle is supported, and a movably mounted member operatively connected with the handle and moved by movement of said hand e to engage said holding formation, and 

